Cell-Free Exploration of the Natural Product Chemical Space

Natural products and secondary metabolites comprise an indispensable resource from living organisms that have transformed areas of medicine, agriculture, and biotechnology. Recent advances in high-throughput DNA sequencing and computational analysis suggest that the vast majority of natural products remain undiscovered. To accelerate the natural product discovery pipeline, cell-free metabolic engineering approaches used to develop robust catalytic networks are being repurposed to access new chemical scaffolds, and new enzymes capable of performing diverse chemistries. Such enzymes could serve as flexible biocatalytic tools to further expand the unique chemical space of natural products and secondary metabolites, and provide a more sustainable route to manufacture these molecules. Herein, we highlight select examples of natural product biosynthesis using cell-free systems and propose how cell-free technologies could facilitate our ability to access and modify these structures to transform synthetic and chemical biology.

Automated summary

Natural products and secondary metabolites are essential resources that remain largely undiscovered, but high-throughput DNA sequencing and computational analysis are enabling the discovery of new chemical scaffolds and enzymes through cell-free metabolic engineering. These enzymes can serve as flexible biocatalytic tools to expand the chemical space of natural products and provide a more sustainable manufacturing route.